Explore awards
Use the filter menu and interactive map to explore the past competitions offered and grants awarded through the Environmental Literacy Program.
To learn more about project findings and outcomes, view the summaries of our grantees’ summative evaluation reports.
Interpreting Global, Half-hourly Cloud Observations to Promote Weather and Climate Literacy
AMNH will use NOAA weather satellite data to annotate 72 high definition (HD) video time-series global cloud cover visualizations using thermal infrared brightness temperature data acquired by five geostationary satellites and joined into global mosaics at half-hourly intervals. The HD visualizations will be used in informal and formal education activities and will be made available on the Web. These media pieces will be used for informal education activities at AMNH and 28 other informal science institutions (ISI) around the United States . The target population of visitors to subscribing ISIs is currently ten million and is projected to be over 15 million by the end of the grant. The HD visualizations will be used in formal settings, as well. Fifteen schools throughout New York City with large numbers of new English Language Learners will be targeted and professional development for teachers of ELL students will be provided through programs at AMNH as well. AMNH's effort focuses on weather and climate patterns that will be visible in the cloud-data visualizations. All viewers of the media will learn about general circulation patterns and changes in phase of water associated with the hydrologic cycle.
SOS Ocean-Atmosphere Literacy Partnership
The SOS Ocean-Atmosphere Literacy Partnership is a collaboration among the American Museum of Natural History (AMNH) in New York, NY; Maryland Science Center (MSC) in Baltimore, MD; and Science Museum of Minnesota (SMM) in St. Paul, MN. This collaboration will create two six-minute programs and two 30-minute live presentations for the spherical display systems, including NOAA's Science on a Sphere. The SMM will produce "Ocean-Atmosphere Thermodynamics"; the AMNH will produce, "Tropical Cyclones: Theory, Models, and Observations."
Exploring Earth Systems: Expanding Data Visualization Experiences for Museum Learners
The American Museum of Natural History, in association with several NOAA entities, will be creating a suite of media products employing visualization of Earth-observation data as well as associated professional development programs to expand educational experiences in informal science institutions nationwide. Interactive versions of the visualizations will also be disseminated via the AMNH website. Visualization assets will be distributed to NOAA for utilization on climate.gov and Science on a Sphere. The creation of training programs and educational materials for informal education professionals will enhance the experience and efficacy of the data visualizations as tools to understand and build stewardship of Earth systems.
Citizen Science, Civics, and Resilient Communities (CSCRC)
The "Citizen Science, Civics, and Resilient Communities” (CSCRC) project led by the Museum of Science, Boston in partnership with Arizona State University, Northeastern University, SciStarter, and the National Informal STEM Education Network (NISE Net), engaged thousands of public participants around the United States in participatory data collection and community deliberation about four climate-related hazards: heat waves, sea level rise, extreme precipitation, and drought. The aims of the project were to increase resilience to extreme weather and environmental hazards through the inclusion of community-generated data, local knowledge, and community values into civic planning, and to increasing capacity among science centers and informal educators for including publics in resilience planning and data collection. The project formulated, iterated, and evaluated a science-to-civics model that included agenda-setting, decision-making and policy forming phases. These activities were developed and implemented by educators at 30 US science centers in collaboration with local resilience planners. Groups of participants in each community collected, analyzed, and shared data about locally relevant hazards; learned about vulnerabilities through visualizations of geospatial data; participated in deliberative, participatory resilience planning and shared perspectives about resilience strategies and their societal and environmental trade-offs; formulated community resilience plans that brought forth diverse perspectives; and presented their findings and recommendations to resilience planners and publics. Participants contributed community-generated data such as urban heat island maps, precipitation data from rain gauges, or documented extreme events through photos of their communities. These data were visualized through StoryMaps, exhibited at local libraries and fairs, and used to facilitate community discussions about the tradeoffs of proposed resilience strategies. Many of the deliberation and participatory science activities pivoted to online formats in response to the pandemic. These digital engagement activities provided new and unanticipated challenges, but also new opportunities connect project participants and capture participant engagement in powerful ways. Our project evaluation found that citizen science and Forum participants increased their knowledge around climate hazards, resilience strategies and their tradeoffs. Participants also increased their confidence and interest in engaging with climate topics, including ways to take action around community climate hazards, contributing to citizen science efforts, and contributing to public policy. Museum professionals found that the project positively impacted their ability to implement science to civics activities, felt supported by the trainings and materials, and planned to continue implementing these programs provided they had continued access to materials, tools, and experts. Many of the project materials are freely available for download at nisenet.org/cscrc and the local project portals documenting the citizen science activities can be found at scistarter.org/noaa.
Promoting Environmental Literacy through Teacher Professional Development Workshops and Climate Change Student Summits (C2S2)
This project will provide K-12 teacher professional development and focused student activities to promote environmental literacy using the essential principles of ocean and climate literacy. In partnerships with NOAA entities, school districts, and museums across the United States, we will provide: (1) high-energy face-to-face professional development workshops for teachers, facilitated by experienced educators; (2) ongoing support and interactions among teachers and students through an online collaborative website, or group-hub; and, (3) high-profile, focused events in which students interact with scientists and the public to share what they've learned, both locally and internationally. The primary goal of this project is to increase the environmental literacy of K-12 teachers and their students from school districts that are part of existing science museum networks. Each summer, we will work with 4 to 6 partner museums to invite 30 to 40 teachers from their local school districts to take part in a pair of workshops.
U.S. Virgin Islands Storm Strong Program
Under leadership from the University of the Virgin Islands, the Virgin Islands Marine Advisory Service, and local, non-profit, long-term, 2017 storm recovery groups, this 5-year project will create the U.S. Virgin Islands (USVI) Storm Strong Program. To date, minimal efforts have been made to engage the USVI community in hurricane education and preparation. As a result, USVI communities face significant, but often preventable, storm risks. This is the Territory’s first sustained, community-based, hurricane hazard preparedness, and community leadership building program. The USVI Storm Strong Program will engage underserved and underrepresented middle- and high-school youth and their families on all of the Territory’s main islands - St. Thomas, St. John and St. Croix - in a program modelled after the U.S. Climate Resilience Toolkit framework. Youth and their families will: (1) explore the science and hazards associated with hurricanes, (2) assess their communities’ vulnerabilities and associated risks, (3) evaluate personal and community assets and options to increase resilience, (4) prioritize and plan for events occurring before, during, and after a storm, and (5) take action, in this case, through Community Transfer Projects, which will turn the information gained through the Program into local actions to increase individual and community resilience, sharing knowledge and actions with the broader USVI community and beyond. Through this training, ~400 USVI youth and their families will be empowered as environmental leaders and change agents within their communities and important insights will be learned as to how best to engage underrepresented and underserved groups in hazard preparedness. Creation of the USVI Storm Strong Program is timely, given the significant impacts resulting from Hurricanes Irma and Maria, two Category 5 hurricanes that devastated the USVI in September 2017. These storms provide a window of opportunity to bring together partners from federal, territorial, non-governmental, academic, and the private sector, to develop a strategic, cohesive, long-term, high-impact, community-based program to improve environmental literacy and extreme weather hazard preparedness in the Territory, goals that align with the mission of NOAA’s Office of Education.
Recharge the Rain: Community Resilience through STEM Education
Arizonans face environmental hazards from extreme heat, drought, and flooding. Watershed Management Group and partner Arizona Project WET’s “Recharge the Rain” project addressed these threats by building environmental literacy among 4-12th grade teachers, students, and the public. The project centered on educator professional training and hands-on water harvesting skills. Participants moved through a continuum from awareness to knowledge gain, to conceptual understanding, and ultimately to action. Utilizing data and experts from NOAA assets, we strengthened the capacity of residents to be resilient to our local climate threats. This 4.5 year project 1) developed and immersed 14,452 students in STEAM curriculum incorporating water harvesting that increases understanding of earth systems, engineering design, and weather; 2) applied systems thinking to train 52 teachers and 191 community volunteers in water harvesting practices and citizen-science data collection; 3) involved 8,289 Tucson community members in water harvesting principles; 4) implemented 21 teacher/student-led water harvesting projects at schools; and 5) celebrated our community work with student artwork. RtR became a call for action and an inspiration for change and adaptation to extreme weather conditions in the urban environments of the Sonoran Desert putting Tucson at the core of understanding climate, adaptation, and community.